MANUAL MC320 Thermal Imager
10 Introduction MC320 Thermal Imager Manual Integration with other devices in the process or other systems (PLCs, computers, SCADA and Distri
MC320 Thermal Imager Manual Introduction 11 2.3 Lenses The MC320 is a process camera that has a full array of optional lenses available to mee
12 Introduction MC320 Thermal Imager Manual Before shipment, each camera is assembled, calibrated, and tested at the LumaSense Factory. If you n
MC320 Thermal Imager Manual Introduction 13 2.8 Shipments to LumaSense for Repair All RMA shipments of LumaSense Technologies instruments are t
14 Introduction MC320 Thermal Imager Manual To ensure consistent document formatting, this page was intentionally left blan
MC320 Thermal Imager Manual Getting Started 15 3 Getting Started The MC320 camera is configured to operate under certain conditions according t
16 Getting Started MC320 Thermal Imager Manual 3.4.1 Connecting the Camera to a Dedicated Computer To Connect the Camera to a Dedicated Com
MC320 Thermal Imager Manual Getting Started 17 3.4.2 Connecting the Camera to a Network Device To Connect the Camera to a Network Device: 1.
18 Getting Started MC320 Thermal Imager Manual 3.5 Installing the Software If your system was delivered with LumaSense’s thermal imaging softw
MC320 Thermal Imager Manual Principle of Thermal Imaging 19 4 Principle of Thermal Imaging All materials above 0 degrees Kelvin (-273 degrees
Confidential Information The material contained herein consists of information that is the property of LumaSense Technologies and intended solely for
20 Principle of Thermal Imaging MC320 Thermal Imager Manual 4.2 Emissivity Infrared radiation is energy radiated by the motion of atoms and mol
MC320 Thermal Imager Manual Principle of Thermal Imaging 21 Where, Wo = total radiant energy emitted by a body at a given temperature T. Wbb =
22 Principle of Thermal Imaging MC320 Thermal Imager Manual Where in (1) to (3), In radiation of a normal object, as the emissivity is (<1)
MC320 Thermal Imager Manual Principle of Thermal Imaging 23 Absorptivity equals emissivity, thus emissivity can be described by reflectivity and
24 Principle of Thermal Imaging MC320 Thermal Imager Manual 1. By means of a printed table Various books and literature carry physical constan
MC320 Thermal Imager Manual Principle of Thermal Imaging 25 4.6 Background Noise When measuring the temperature of an object by a radiation th
26 Principle of Thermal Imaging MC320 Thermal Imager Manual 4. Thereafter when measuring the same type object, it is unnecessary to change the
MC320 Thermal Imager Manual Principle of Thermal Imaging 27 4.8 Emissivity of Various Materials From “Infrared Radiation, a Handbook for Applic
28 Principle of Thermal Imaging MC320 Thermal Imager Manual
MC320 Thermal Imager Manual Principle of Thermal Imaging 29
MC320 Thermal Imager Manual Contents iii Contents 1 General Information ...
30 Principle of Thermal Imaging MC320 Thermal Imager Manual
MC320 Thermal Imager Manual Appendix 31 5 Appendix 5.1 Specifications 5.1.1 MC320 Variations Model Filter Range 1 (°F) Range 2 (°F) Range 1 (
32 Appendix MC320 Thermal Imager Manual Interface Analog: TV Output (NTSC or PAL) Digital: Gigabit Ethernet Connections: 4-pin Power, RJ45 Eth
iv Contents MC320 Thermal Imager Manual 5 Appendix ...
MC320 Thermal Imager Manual General Information 5 1 General Information 1.1 Information about the User Manual Congratulations on choosing the
6 General Information MC320 Thermal Imager Manual USA This camera is prohibited to be resold, loaned or taken out of the USA unless an export l
MC320 Thermal Imager Manual General Information 7 1.5 Limit of Liability and Warranty All general information and notes for handling, maintena
8 General Information MC320 Thermal Imager Manual To ensure consistent document formatting, this page was intentionally lef
MC320 Thermal Imager Manual Introduction 9 2 Introduction The MC320 represents another milestone in innovative infrared thermal imaging. Design
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